#include using namespace std; #define FOR(i,m,n) for(int i=(m);i<(n);++i) #define REP(i,n) FOR(i,0,n) using ll = long long; constexpr int INF = 0x3f3f3f3f; constexpr long long LINF = 0x3f3f3f3f3f3f3f3fLL; constexpr double EPS = 1e-8; constexpr int MOD = 998244353; // constexpr int MOD = 1000000007; constexpr int DY4[]{1, 0, -1, 0}, DX4[]{0, -1, 0, 1}; constexpr int DY8[]{1, 1, 0, -1, -1, -1, 0, 1}; constexpr int DX8[]{0, -1, -1, -1, 0, 1, 1, 1}; template inline bool chmax(T& a, U b) { return a < b ? (a = b, true) : false; } template inline bool chmin(T& a, U b) { return a > b ? (a = b, true) : false; } struct IOSetup { IOSetup() { std::cin.tie(nullptr); std::ios_base::sync_with_stdio(false); std::cout << fixed << setprecision(20); } } iosetup; template struct IntervalsManagedBySet { using IntervalsType = std::set>; IntervalsType intervals{ {std::numeric_limits::lowest(), std::numeric_limits::lowest()}, {std::numeric_limits::max(), std::numeric_limits::max()}}; IntervalsManagedBySet() = default; bool contains(const T x) const { return contains(x, x); } bool contains(const T left, const T right) const { return find(left, right) != intervals.end(); } std::pair erase(const T x) { typename IntervalsType::const_iterator it = intervals.lower_bound({x, x}); if (it->first == x) { const T right = it->second; it = intervals.erase(it); if (x + 1 <= right) it = intervals.emplace(x + 1, right).first; } else { it = std::prev(it); const auto [left, right] = *it; if (right < x) return {std::next(it), false}; intervals.erase(it); it = std::next(intervals.emplace(left, x - 1).first); if (x + 1 <= right) it = intervals.emplace(x + 1, right).first; } return {it, true}; } std::pair erase( const T left, const T right) { assert(left <= right); typename IntervalsType::const_iterator it = intervals.lower_bound({left, left}); T res = 0; for (; it->second <= right; it = intervals.erase(it)) { res += it->second - it->first + 1; } if (it->first <= right) { res += right - it->first + 1; const T r = it->second; intervals.erase(it); it = intervals.emplace(right + 1, r).first; } if (left <= std::prev(it)->second) { it = std::prev(it); const auto [l, r] = *it; intervals.erase(it); if (right < r) { res += right - left + 1; intervals.emplace(right + 1, r); } else { res += r - left + 1; } it = std::next(intervals.emplace(l, left - 1).first); } return {it, res}; } typename IntervalsType::const_iterator find(const T x) const { return find(x, x); } typename IntervalsType::const_iterator find( const T left, const T right) const { typename IntervalsType::const_iterator it = intervals.lower_bound({left, left}); if (left < it->first) it = std::prev(it); return it->first <= left && right <= it->second ? it : intervals.end(); } std::pair insert(const T x) { typename IntervalsType::const_iterator it = intervals.lower_bound({x, x}); if (it->first == x) return {it, false}; if (x <= std::prev(it)->second) return {std::prev(it), false}; T left = x, right = x; if (x + 1 == it->first) { right = it->second; it = intervals.erase(it); } if (std::prev(it)->second == x - 1) { it = std::prev(it); left = it->first; intervals.erase(it); } return {intervals.emplace(left, right).first, true}; } std::pair insert(T left, T right) { assert(left <= right); typename IntervalsType::const_iterator it = intervals.lower_bound({left, left}); if (left <= std::prev(it)->second) { it = std::prev(it); left = it->first; } T res = 0; if (left == it->first && right <= it->second) return {it, res}; for (; it->second <= right; it = intervals.erase(it)) { res -= it->second - it->first + 1; } if (it->first <= right) { res -= it->second - it->first + 1; right = it->second; it = intervals.erase(it); } res += right - left + 1; if (right + 1 == it->first) { right = it->second; it = intervals.erase(it); } if (std::prev(it)->second == left - 1) { it = std::prev(it); left = it->first; intervals.erase(it); } return {intervals.emplace(left, right).first, res}; } T mex(const T x = 0) const { auto it = intervals.lower_bound({x, x}); if (x <= std::prev(it)->second) it = std::prev(it); return x < it->first ? x : it->second + 1; } friend std::ostream& operator<<(std::ostream& os, const IntervalsManagedBySet& x) { if (x.intervals.size() == 2) return os; auto it = next(x.intervals.begin()); while (true) { os << '[' << it->first << ", " << it->second << ']'; it = next(it); if (next(it) == x.intervals.end()) break; os << ' '; } return os; } }; int main() { int n, m; cin >> n >> m; vector> lr(n + m); REP(i, n + m) cin >> lr[i].first >> lr[i].second; int k; cin >> k; sort(lr.begin(), next(lr.begin(), n)); FOR(i, 1, n) { if (lr[i].first <= lr[i - 1].second) { REP(j, k) cout << 1 << " \n"[j + 1 == k]; return 0; } } sort(next(lr.begin(), n), lr.end()); FOR(i, n + 1, n + m) { if (lr[i].first <= lr[i - 1].second) { REP(j, k) cout << 1 << " \n"[j + 1 == k]; return 0; } } IntervalsManagedBySet intervals; REP(i, n) intervals.insert(lr[i].first, lr[i].second); REP(i, k) { int p; cin >> p; bool e = false; FOR(j, n, n + m) { const ll tl = lr[j].first - p, tr = lr[j].second - p; const auto it = intervals.intervals.lower_bound({p - tr, p - tr}); if (intervals.contains(p - tr) || (it != intervals.intervals.end() && it->first <= p - tl)) { e = true; break; } } cout << (e ? 1 : 0) << " \n"[i + 1 == k]; } return 0; }